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G. Gallinaro, G. Roba, and R. Tatarek, “Molecular beam detection by fast superconducting bolometer,” J. Phys.,E11, No. 7 (1978).
A. A. Vostrikov, S. G. Mironov, et al., “Measurement of the energy of clustered molecular beams by means of cooled bolometers,” Zh. Tekh. Fiz.,49, No. 12 (1979).
G. S. Caracciolo, S. Janotta, et al., “Diftractive scattering of H atoms from 001 surface of LiF at 78°K,” J. Chem. Phys.,72, No. 8 (1980).
G. R. Coulter, F. R. Grabiner, et al., “Laser pumping of SF6 in the collisional region of a nozzle beam: bolometric detection of internal excitation,” J. Chem. Phys.,73, No. 1 (1980).
M. J. Cardillo, G. E. Backer, and G. D. Kubak, “Granular aluminum superconducing bolometer as a molecular beam detector,” J. Vac. Sci. Technol.,17, No. 1 (1980).
A. A. Vostrikov, S. G. Mironov, and B. E. Semyachkin, “Investigation of nonequilibrium processes by means of the molecular beam method,” in: Calculation of Heat and Mass Exchange in Chemical Energy Processes [in Russian], Institute of Technical Physics, Siberian Branch of the Academy of Sciences of the USSR (ITF SO AN SSSR), Novosibirsk (1982).
L. S. Kremenchugskii and O. V. Roitsina, Pyroelectric Radiation Transducers [in Russian], Naukova Dumka, Kiev (1979).
R. E. Miller, “Infrared laser spectroscopy of molecular beams using a room-temperature beam detector: application to the study of translational freezing in free-jet expansions,” Rev. Sci. Instrum.,53, No. 11 (1982).
W. S. Young, “Distortion of time-of-flight signals,” Rev. Sci. Instrum.,44, No. 6 (1973).
A. E. Zarvin, “Flight-time method of measuring the molecular velocity distribution function,” in: Nonequilibrium processes in rarefied gas flow [in Russian], Institute of Technical Physics, Siberian Branch of the Academy of Sciences of the USSR (ITF SO AN SSSR), Novosibirsk (1977).
A. I. Sedel'nikov, “Simulation problem of recovering the distribution function with respect to the flight-time signal,” in: Improper Inverse Problems of Atomic Physics [in Russian], Institute of Theoretical and Applied Mechanics, Siberian Branch of the Academy of Sciences of the USSR (ITPM SO AN SSSR), Novosibirsk (1976).
R. Smith, F. Jones, and R. Chesmer, Detection and Measurement of Infrared Radiation [Russian translation], IL, Moscow (1959).
A. N. Tikhonov and V. Ya. Arsenin, Methods of Solving Improper Problems [in Russian], Nauka, Moscow (1979).
A. V. Kolosov and A. I. Sedel'nikov, “Effect of the Flight-Time Circuit Parameters on Recovery of the Molecular Velocity Distribution Function,” in: Physical Gas Dynamics [in Russian], Institute of Theoretical and Applied Mechanics, Siberian Branch of the Academy of Sciences of the USSR (ITPM SO AN SSSR), Novosibirsk (1976).
Translated from Zhurnal Prikladnoi Mekhaniki i Tekhnicheskoi Fiziki, No. 2, pp. 45–49, March–April, 1985.
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Mironov, S.G., Sedel'nikov, A.I. Use of thermal transducers for measuring the molecular velocity distribution function. J Appl Mech Tech Phys 26, 191–194 (1985). https://doi.org/10.1007/BF00908964
- Mathematical Modeling
- Distribution Function
- Mechanical Engineer
- Velocity Distribution
- Industrial Mathematic